spectrum monitoring in cellular networks - its. · pdf filespectrum monitoring in cellular...
TRANSCRIPT
Spectrum Monitoring in Cellular Networks
Presented at ISART 2016
Pablo Tacconi, MAXSiA [email protected]
Interference is a receiver problem
Interference is a receiver problem.
Interference, regardless of its source, is only a problem if it impacts the ability of the receiver from properly decoding
the desired signal
Therefore, there is no better place to measure for interference than at the receiver itself.
Measurement are performed exactly where it matters, using the same antenna, cabling, and electronics
From a technology point of view, it is relatively easy and cheap to add spectrum monitoring capabilities
to a receiver
This is true in modern cellular base-stations (1), but also in many other modern communication systems
Modern base-station receivers use data converters to digitized the entire receive band, and then use digital
down converters to select the desired channel within the band.
Spectrum monitoring can be enabled by capturing a segment of the RF waveform at the
receiver front-end, and making the it available for post processing.
(1) Nokia Future Works, “Sniff out and fix interference without drive testing”, Insight Newsletter, Nokia 2014.
http://networks.nokia.com/news-events/insight-newsletter/articles/sniff-out-and-fix-interference-without-drive-testing
© MAXSiA 2016
Interference detection in cellular networks is changing
In the past, detecting interference in cellular networks looked like this
Now, detecting interference in cellular networks can look like this
The traditional approach for diagnosing
interference is to send an RF expert to the
cell site. The RF expert visits the cell site and
makes RF measurements using a portable
spectrum analyzer.
This approach is both slow and very expensive;
requiring highly-trained individuals, expensive test
equipment, and many hours of labor.
Many modern base-stations have spectrum
monitoring capabilities, providing the ability to
capture and analyze the RF spectrum in remote
and non-intrusive manner.
© MAXSiA 2016
PUCCH
(Control)
PUSCH
(Data)Spectrogram or Waterfall Plot
The color represents the power level at a particular time and frequency
Frequency (GHz)
Case Study – Healthy LTE cell
This data below came from a live LTE base-station. The region in green is the channel used by the base station.
* The center frequency has been altered to protect the privacy of the operator
Rx Channel (15MHz LTE)
© MAXSiA 2016
Case Study – Narrowband Interference in LTE
This data below came from a live LTE base-station. The region in green is the channel used by the base station.
A narrowband interferer, causing a serious degradation to the cell, was detected
Upon investigation, it was discovered that the interference was produced by a malfunctioning repeater (Bi-Directional Amplifier)
The repeater was removed, the performance of the cell improved by 50%
* The center frequency has been altered to protect the privacy of the operator
Narrowband Interference at
1509MHz
Frequency (GHz)
Rx Channel (15MHz LTE)
© MAXSiA 2016
Case Study – Passive Intermodulation Interference in LTE This data below came from a live LTE base-station. The region in green is the channel used by the base station.
Passive inter-modulation (PIM) was detected. The level of the interference is very strong (18dB rise in the noise floor), and causing seriously
degradation to the cell performance
The passive inter-modulation was the result of a 3rd IM product produced by the non-linear mixing of the base-station LTE transmitter and a
WCDMA base-station in the same rooftop.
PIM Interference
Frequency (GHz)
Rx Channel (15MHz LTE)
* The center frequency has been altered to protect the privacy of the operator© MAXSiA 2016
A spectrum monitor in every device? If planned in advance, spectrum monitoring capabilities (in the form of IQ waveform captures) can be
added to a receiver at a very low cost
Waveform capture capabilities can be economically build into the wireless chipsets.
This is true for base-station chipset, but likely also for mobile chipset.
This would allow for automated spectral monitoring and interference detection over entire radio access networks and large geographical areas.
© MAXSiA 2016
MAXSiA is an engineering consulting firm that specializes in the development of algorithms and services
related to the detection and mitigation of radio frequency interference.
For more information, visit us at www.maxsia.com or email us at [email protected].
Thank you